High level accumulation of α-glucan in maize kernels by expressing the gtfD gene from Streptococcus mutans

Zhang, Shirong; Jie, Dong; Wang, Tai; Guo, Sherry; Glassman, Kimberly; Ranch, Jerry; Nichols, Scott E.

doi:10.1007/s11248-006-9049-8

Cited by 9 publications

(3 citation statements)

References 40 publications

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“…Glycosyltransferases (GTFs) are enzymes (EC 2.4) that establish natural glycosidic linkages. They catalyze the transfer of saccharide moieties from an activated nucleotide sugar (also known as the “glycosyl donor”) to a nucleophilic glycosyl acceptor molecule, the nucleophile of which can be oxygen carbon, nitrogen, or sulfur based [ 28 , 29 ]. In our study, the expression levels of genes encoding the glycosyl hydrolase family and phosphoglucomutase/phosphomannomutase were shown to play an important role in the seeds from all three pollination combinations.…”

Section: Discussionmentioning

confidence: 99%

Transcriptome sequencing and differential expression analysis of seed starch accumulation in Chinese chestnut Metaxenia

Li¹,

Z²,

Zhu³

et al. 2021

BMC Genomics

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Background Chestnut seeds are important kinds of edible nuts rich in starch and protein. The characteristics and nutrient contents of chestnut have been found to show obvious metaxenia effects in previous studies. To improve the understanding of the effect of metaxenia on chestnut starch and sucrose metabolism, this study used three varieties of chestnut, ‘Yongfeng 1’, ‘YongRen Zao’ and ‘Yimen 1’, as male parents to pollinate the female parent, ‘Yongfeng 1’, and investigated the mechanisms of starch and sucrose metabolism in three starch accumulation stages (70 (S1), 82 (S2), and 94 (S3) days after pollination, DAP) in chestnut seed kernels. Result Most carbohydrate metabolism genes were highly expressed in YFF (self-pollinated ‘Yongfeng 1’) in stage S2 and in YFR (‘Yongfeng 1’ × ‘Yongren Zao’) and YFM (‘Yongfeng 1’ × ‘Yimen 1’) in stage S3. In stage S3, hub genes encoding HSF_DNA-binding, ACT, Pkinase, and LIM proteins and four transcription factors were highly expressed, with YFF showing the highest expression, followed by YFR and YFM. In addition, transcriptome analysis of the kernels at 70, 82 and 94 DAP showed that the starch granule-bound starch synthase (EC 2.4.1.242) and ADP-glucose pyrophosphorylase (EC 2.7 .7.27) genes were actively expressed at 94 DAF. Chestnut seeds regulate the accumulation of soluble sugars, reducing sugars and starch by controlling glycosyl transferase and hydrolysis activity during development. Conclusion These results and resources have important guiding significance for further research on starch and sucrose metabolism and other types of metabolism related to chestnut metaxenia.

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Section: Discussionmentioning

confidence: 99%

Transcriptome sequencing and differential expression analysis of seed starch accumulation in Chinese chestnut Metaxenia

Li¹,

Z²,

Zhu³

et al. 2021

BMC Genomics

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“…Farré et al, 2001;Gerrits et al, 2001); traditionally, this metabolite was thought to be confined to the cytosol. Reports of successful generation of novel glucans include potato plants that synthesize starch-fructan hybrid polymers (Gerrits et al, 2001), small amounts of cyclodextrins (Oakes et al, 1991) and starch granules apparently coated with a-1,3, a-1,6 glucan (Nazarian Firouzabadi et al, 2007), and maize plants in which up to 8% of the kernel dry mass is fructan (Caimi et al, 1996) or up Starch and sugar for bioethanol production 553 to 14% of the kernel dry mass is an a-1,6 glucan (Zhang et al, 2007). However, I am not aware of any evidence so far showing that total polymeric non-structural carbohydrate contents (starch plus novel glucan or fructan) are significantly increased in any of these plants.…”

Section: More Radical Possibilities For Increasing Starch Contents Ofmentioning

confidence: 99%

Prospects for increasing starch and sucrose yields for bioethanol production

Smith

2008

The Plant Journal

156

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SummaryIn the short term, the production of bioethanol as a liquid transport fuel is almost entirely dependent on starch and sugars from existing food crops. The sustainability of this industry would be enhanced by increases in the yield of starch/sugar per hectare without further inputs into the crops concerned. Efforts to achieve increased yields of starch over the last three decades, in particular via manipulation of the enzyme ADPglucose pyrophosphorylase, have met with limited success. Other approaches have included manipulation of carbon partitioning within storage organs in favour of starch synthesis, and attempts to manipulate source-sink relationships. Some of the most promising results so far have come from manipulations that increase the availability of ATP for starch synthesis. Future options for achieving increased starch contents could include manipulation of starch degradation in organs in which starch turnover is occurring, and introduction of starch synthesis into the cytosol. Sucrose accumulation is much less well understood than starch synthesis, but recent results from research on sugar cane suggest that total sugar content can be greatly increased by conversion of sucrose into a non-metabolizable isomer. A better understanding of carbohydrate storage and turnover in relation to carbon assimilation and plant growth is required, both for improvement of starch and sugar crops and for attempts to increase biomass production in second-generation biofuel crops.

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“…This could potentially be exploited within the high-fructose maize syrup market. Moreover, Zhang et al (2007) have developed transgenic maize endosperm, via the introduction of a Streptococcus mutans gtfD gene, that accumulates novel glucan (oligo-and polysaccharides composed solely of glucose molecules) polymers at levels relevant to commercial production. The expression of that gene yielded fully functional GTF-D enzyme as shown by accumulation of novel soluble -(1→6)-linked glucan at high levels in the mature maize kernels (up to 14% of their dry weight).…”

Section: New Strategies For Creating Variationmentioning

confidence: 99%